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Nuclear Magnetic Resonance: Volume 32
Author(s): Cynthia J Jameson (Other Contributor)
- Publisher: Royal Society of Chemistry
- Publication Date: 23 May 2003
- Edition: 1st
- Language: English
- Print length: 586 pages
- ISBN-10: 085404342X
- ISBN-13: 9780854043422
Book Description
For those wanting to become rapidly acquainted with specific areas of NMR, this title provides unrivalled scope of coverage.
Editorial Reviews
From the Inside Flap
From the Back Cover
Excerpt. © Reprinted by permission. All rights reserved.
Nuclear Magnetic Resonance Volume 32
A Review of the Literature Published Between June 2001 and May 2002
By G.A. Webb
The Royal Society of Chemistry
Copyright © 2003 The Royal Society of Chemistry
All rights reserved.
ISBN: 978-0-85404-342-2
Contents
Chapter 1 NMR Books and Reviews By W. Schilf, 1,
Chapter 2 Theoretical and Physical Aspects of Nuclear Shielding By C.J. Jameson and A.C. de Dios, 43,
Chapter 3 Applications of Nuclear Shielding By S. Kuroki, N. Asakawa and H. Yasunaga, 75,
Chapter 4 Theoretical Aspects of Spin–Spin Couplings By H. Fukui and T. Baba, 126,
Chapter 5 Applications of Spin–Spin Couplings By K. Kamienska-Trela and J. Wójcik, 146,
Chapter 6 Nuclear Spin Relaxation in Liquids and Gases By R. Ludwig, 201,
Chapter 7 Solid-state NMR Spectroscopy A.E. Aliev and R. V. Law, 238,
Chapter 8 Multiple Pulse NMR By I. Barsukov, 292,
Chapter 9 NMR of Proteins and Nucleic Acids By S.J. Matthews, 309,
Chapter 10 NMR of Carbohydrates, Lipids and Membranes By E.F. Hounsell, 335,
Chapter 11 Synthetic Macromolecules By H. Kurosu and T. Yamanobe, 361,
Chapter 12 NMR in Living Systems By M.J.W. Prior, 401,
Chapter 13 Nuclear Magnetic Resonance Imaging By T. Watanabe, 433,
Chapter 14 Paramagnetic NMR By R.R. Sharp, 473,
Chapter 15 NMR of Liquid Crystals and Micellar Solutions By M. Monduzzi, 520,
CHAPTER 1
NMR Books and Reviews
BY W. SCHILF
1 Books
R1 I. Bertini, C. Luchinat and G. Parigi (eds), Solution NMR of Paramagnetic Molecules, in Current Methods in Inorganic Chemistry, Vol. 2, Elsevier, Amsterdam, 2001
R2 J. Jin, Electromagnetic Analysis and Design in Magnetic Resonance Imaging, CRC: Boca Raton, F.L., 1999
2 Regular Reviews Series
Accounts of Chemical Research, Vol. 34, 2001
R3 M. J. Stone, ‘NMR Relaxation Studies of the Role of Conformational Entropy in Protein Stability and Ligand Binding’, p. 379
R4 K. J. Shea and D. A. Loy, ‘A Mechanistic Investigation of Gelation. The Sol-Gel Polymerization of Precursors to Bridged Polysilsesquinoxanes’, p. 707
R5 F. A. Cotton, C. Lin and C. A. Murillo, ‘Supramolecular Arrays Based on Dimetal Building Units’, p. 759
R6 L. D. Barron and A. D. Buckingham, ‘Time Reversal and Molecular Properties’, p. 781
R7 W. B. Jennings, B. M. Farrel and J. F. Malone, ‘Attractive Intramolecular Edge-to-Face Aromatic Interactions in Flexible Organic Molecules’, p. 885
R8 H. Duerr and S. Bossmann, ‘Ruthenium Polypyridine Complexes. On the Route to Biomimetic Assemblies as Models for the Photosynthetic Reaction Center’, p. 905 Vol. 35, 2002
R9 M. Prakesch, D. Gree and R. Gree, ‘The Propargylic Route as a Short and Versatile Entry to Optically Active Monofluorinated Compounds’, p. 175
R10 D. A. Case, ‘Molecular Dynamics and NMR Spin Relaxation in Proteins’, p. 325
Annual Reports in Medicinal Chemistry, Academic Press Ltd. London, Vol. 36, 2001
R11 G. A. Nemeth and D. B. Kassel, ‘Existing and Emerging Strategies for the Analytical Characterization and Profiling of Compound Libraries’, p. 277
Annual Reports on NMR Spectroscopy, ed. G. A. Webb, Academic Press Ltd. London, Vol. 44, 2001
R12 H. Yoshomizu and Y. Tsujita, ‘Applications of NMR Spectroscopy to the Structure and Ionic Aggregates of Ionomers’, p. 1
R13 K. Saito, K. Kanehashi and I. Komaki, ‘Applications of NMR Techniques to Coal Science’, p. 23
R14 K. Asayama, Y. Kitaoka, G-Q. Zheng, K. Ishida and Y. Tokunaga, ‘NMR Study of Strongly Correlated Superconductors’, p. 75 Vol. 45, 2002
R15 A. G. Webb, ‘Temperature Measurements Using Nuclear Magnetic Resonance’, p. 1
R16 A. Shoji, H. Kimura and H. Sugisawa, ‘Structural Studies of Amino Acids, Polypeptides and Proteins in the Solid State by 1H CRAMPS NMR’, p. 69
R17 J. A. Chudek and G. Hunter, ‘Stray Field (STRAFI) and Single Point (SPI) Magnetic Resonance Imaging’, p. 151
R18 Y. Yamamoto, ‘NMR Study of Internal Hydrogen Bonds in Metalloproteins’, p. 189
Vol. 46, 2002
R19 D. J. T. Hill and A. K. Whittaker, ‘NMR Studies of the Radiation Modification of Polymers’, p. 1
R20 T. Kameda and T. Asakura, ‘Dynamics of Silk Fibroin Studied with NMR Spectroscopy’, p. 101
R21 D. Jeannerat, ‘Computer Processing Techniques in High-Resolution NMR’, p. 151
Annual Review of Biophysics and Biomolecular Structure, Vol. 30, 2001
R22 A. G. Palmer III, ‘NMR Probes of Molecular Dynamics: Overview and Comparison with Other Techniques’, p. 129
Annual Review on Physical Chemistry, Vol. 52, 2001
R23 L. Frydman, ‘Spin-1/2 and Beyond. A Perspective in Solid State NMR Spectroscopy’, p. 463
R24 R. Tycko, ‘Biomolecular Solid State NMR: Advances in Structural Methodology and Applications to Peptide and Protein Fibrils’, p. 575
Annual Review of Plant Physiology and Plant Molecular Biology, Vol. 52, 2001
R25 R. G. Ratcliffe and Y. Shachar-Hill, ‘Probing Plant Metabolism with NMR’, p. 499
Chemical Record, Vol. 1, 2001
R26 R. Noyori, S. Suga, H. Oka and M. Kitamura, ‘Self and Nonself Recognition of Chiral Catalysts: The Origin of Nonlinear Effects in the Amino-Alcohol Catalysed Asymmetric Addition of Diorganozincs to Aldehydes’, p. 85
Chemical Reviews (Washington, D.C.), Vol. 101, 2001
R27 J. A. N. Gomes and R. B. Mallion, ‘Aromaticity and Ring Currents’, p. 1349
R28 C. Simonnet-Jegat and F. Secheresse, ‘Binary Vanadium Chalcogenide Complexes’, p. 2601
R29 S. P. Brown and H. W. Spiess, ‘Advanced Solid-State NMR Methods for the Elucidation of Structure and Dynamics of Molecular, Macromolecular, and Supramolecular Systems’, p. 4125 Vol. 102, 2002
R30 M. R. Wormald, A. J. Petrescu, Y.-L. Pao, A. Glithero, T. Elliott and R. A. Dwek, ‘Conformational Studies of Oligosaccharides and Glycopeptides: Complementarity of NMR, X-Ray Crystallography, and Molecular Modeling’, p. 371
R31 W. Kolodziejski and J. Klinowski, ‘Kinetics of Cross-Polarization in Solid-State NMR. A Guide for Chemists’, p. 613
R32 J. Mason, L. F. Larkworthy and E. A. Moore, ‘Nitrogen NMR Spectroscopy of Metal Nitrosyls and Related Compounds’, p. 913
Coordination Chemistry Reviews, Vol. 215, 2001
R33 L. Weber, ‘The Chemistry of 1,3,2-Diazaborolines (2,3-Dihydro-1H1-,3,2-diazaboroles)’, p. 39
R34 M. Nath, S. Pokharia and R. Yadav, ‘Organotin(IV) Complexes of Amino Acids and Peptides’, p. 99
R35 G. Pawelke and H. Burger, ‘Perfluoroalkyl Borates: Congeners of Perfluoroalkanes’, p. 243
Vol.216–217, 2001
R36 E. Toth, L. Burai and A. E. Merbach, ‘Similarities and Differences between the Isoelectronic Gd and Eu Complexes with Regard to MRI Contrast Agent Applications’, p. 216
Vol. 219–221,2001
R37 R. J. Crutchley, ‘Phenylcyanamide Ligands and their Metal Complexes’, p. 125
Vol. 224, 2002
R38 L. Pellerito and L. Nagy, ‘Organotin (IV)n+ Complexes Formed with Biologically Active Ligands: Equilibrium and Structural Studies, and Some Biological Aspects’, p. 111
Vol. 225, 2002
R39 W. Levanson, S. D. Orchard and G. Reid, ‘Recent Developments in the Chemistry of Selenoethers and Telluroethers’, p. 159
Current Issues in Molecular Biology, Vol. 3, 2001
R40 J.-P. Grivet, ‘NMR and Microorganisms’, p. 7
R41 J. V. Shanks, ‘In Situ NMR Systems’, p. 15
Vol. 4, 2002
R42 H. K. Hamadeh, R. P. Amin, R. S. Paules and C. A. Afshari, ‘An Overview of Toxicogenomics’, p. 45
Current Medicinal Chemistry, Vol. 8, 2001
R43 R. P. Hicks, ‘Recent Advances in NMR: Expanding its Role in Rational Drug Design’, p. 627
Current Medicinal Chemistry: Immunology, Endocrine & Metabolic Agents, Vol. 1, 2001
R44 V. J. Hruby, J-M. Ahn and D. Trivedi, ‘The Design and Biological Activities of Glucagon Agonists and Antagonists, and their Use in Examining the Mechanisms of Glucose Action’, p. 199
Current Opinion on Biotechnology, Vol. 12, 2001
R45 U. Heinemann, G. Illing and H. Oschkinat, ‘High-Throughput Three-Dimensional Protein Structure Determination’, p. 348
Current Opinion on Chemistry and Biology, Vol. 5, 2001
R46 T. Diercks, M. Coles and H. Kessler, ‘Applications of NMR in Drug Discovery’, p. 285
R47 J. H. Prestegard and A. I. Kishore, ‘Partial Alignment of Biomolecules: An Aid to NMR Characterization’, p. 584
Current Opinion in Clinical Nutrition & Metabolic Care, Vol. 4, 2001
R48 M. Roden, ‘Non-Invasive Studies of Glycogen Metabolism in Human Skeletal Muscle Using Nuclear Magnetic Resonance Spectroscopy’, p. 261
Current Opinion in Colloid & Interface Science, Vol. 6, 2001
R49 R. G. Laughlin, ‘Methodologies for Phase Studies of Amphiphilic Compounds: Recent Developments’, p. 405
R50 W. Richtering, ‘Rheology and Shear Induced Structures in Surfactant Solutions’, p. 446
R51 J. Vermant, ‘Large-Scale Structures in Sheared Colloidal Dispersions’, p. 489
Current Opinion in Drug Discovery & Development, Vol. 4, 2001 R52 D. S. Sem and M. Pellecchia, ‘NMR in the Acceleration of Drug Discovery’, p. 479
Current Opinion in Plant Biology, Vol. 4, 2001
R53 R. Bligny and R. Douce, ‘NMR and Plant Metabolism’, p. 191
Current Opinion on Solid State & Material Science, Vol. 5, 2001
R54 D. E. Demko and B. Blumich, ‘NMR Imaging of Materials’, p. 195
Current Opinion on Structural Biology, Vol. 11, 2001
R55 L. Zidek, R. Stefl and V. Sklenar, ‘NMR Methodology for the Study of Nucleic Acids’, p. 275
R56 M. T. Zanni and R. M. Hochstrasser, ‘Two-Dimensional Infrared Spectroscopy: A Promising New Method for the Time Resolution of Structures’, p. 516
R57 J. R. Tolman, ‘Dipolar Couplings as a Probe of Molecular Dynamics and Structure in Solution’, p. 532
R58 A. Arora and L. K. Tamm, ‘Biophysical Approaches to Membrane Protein Structure Determination’, p. 540
R59 L. Spyracopoulos and B. D. Sykes, ‘Thermodynamic Insights into Proteins from NMR Spin Relaxation Studies’, p. 555
R60 N.-C. Ha, G. Choi, Y. Kwan and B.-H. Oh, ‘Structure and Enzymology of Δ5-3-Ketosteroid Isomerase’, p. 674
Vol. 12, 2002
R61 G. M. Clore and C. D. Schwieters, ‘Theoretical and Computational Advances in Biomolecular NMR Spectroscopy’, p. 146
Current Organic Chemistry, Vol. 5, 2001
R62 I. Wawer and S. Witkowski, ‘Analysis of Solid State C NMR Spectra of Biologically Active Compounds’, p. 987
R63 S. Kuroki, K. Yamauchi, I. Ando, A. Shoji and T. Ozaki, ‘O-Isotope Labeling and Hydrogen-Bonded Structure Investigation in Peptides and Polypeptides by Solid State 17O NMR’, p. 1001
R64 X. Han, Z. Yan, W. Zhang and X. Bao, ‘Applications of in Situ NMR in Catalytic Processes of Organic Reactions’, p. 1017
R65 S. Srivastava and G. Govil, ‘Application of NMR to the Study of Cells and Body Fluids’, p. 1039
Vol. 6, 2002
R66 R. Marek and A. Lycka, ‘N NMR Spectroscopy in Structural Analysis’, p. 35
R67 K. Hatada, T. Kitayama, T. Nishiura and W. Shibuya, ‘Relation between Reactivities of Vinyl Monomers and their NMR Spectra’, p. 121
Current Topics in Medicinal Chemistry (Hilversum, Netherlands), Vol. 1, 2001
R68 J. P. Shockcor and E. Holmes, ‘Metabonomic Applications in Toxicity Screening and Disease Diagnosis’, p. 35
R69 D. R. Light and W. J. Guilford, ‘Discovery of the Factor Xa Inhibitor, ZK 807834 (CI-1031)’, p. 121
R70 S. S. Pochapsky and T. C. Pochapsky, ‘Nuclear Magnetic Resonance as a Tool in Drug Discovery, Metabolism and Disposition’, p. 427
Lecture Notes in Physics Vol. 565
Magnetism and Synchrotron Radiation, ed. E. Beaurepaire, F. Scheuer, G. Krill and J.-P. Kappler, Springer Verlag, 2001
R71 M. Piecuch, ‘Some Nuclear Techniques in Experimental Magnetism: Mossbauer Effect, Neutron Scattering and Nuclear Magnetic Resonance’, p. 291
Methods in Enzymology, Vol. 334
Hyperthermophilic Enzymes, Part C, ed. M. W. W. Adams and R. M. Kelly, Academic Press, 2001
R72 G. N. La Mar, ‘Nuclear Magnetic Resonance Analysis of Hyperthermophile Ferredoxins’, p. 351
Vol. 338
Nuclear Magnetic Resonance of Biological Macromolecules, Part A, ed. T. L. James, V. Dotsch and U. Schmitz, Academic Press, 2001
R73 D. S. Wishart and D. A. Case, ‘Use of Chemical Shifts in Macromolecular Structure Determination’, p. 3
R74 E. Kupce, ‘Applications of Adiabatic Pulses in Biomolecular Nuclear Magnetic Resonance’, p. 82
R75 K. Akasaka and H. Yamada, ‘On-Line Cell High Pressure Nuclear Magnetic Resonance Technique: Application to Protein Studies’, p. 134
R76 J. C. Hoch and A. S. Stern, ‘Maximum Entropy Reconstruction, Spectrum Analysis and Deconvolution in Multidimensional Nuclear Magnetic Resonance’, p. 159
R77 J. W. Peng, C. A. Lepre, J. Fejzo, N. Abdul-Manan and J. M. Moore, ‘Nuclear Magnetic Resonance – Based Approaches for Lead Generation in Drug Discovery’, p. 202
R78 B. J. Stockman, K. A. Farley and D. T. Angwin, ‘Screening of Compound Libraries for Protein Binding Using Flow-Injection Nuclear Magnetic Resonance Spectroscopy’, p. 230
R79 C. Kojima, A. Ono ‘Mei’, A. Ono and M. Kainosho, ‘Solid-Phase Synthesis of Selectively Labeled DNA: Applications for Multi-Dimensional Nuclear Magnetic Resonance Spectroscopy’, p. 261
R80 D. Live, L. A. Silks III and J. Schmidt, ’13C Isotopic Enrichment for Nuclear Magnetic Resonance Studies of Carbohydrates and Glycoconjugates’, p. 305
R81 E. P. Nikonowicz, ‘Preparation and Use of 2H-Labeled RNA Oligonucleotides in Nuclear Magnetic Resonance Studies’, p. 320
R82 J. Cromsigt, B. Van Buuren, J. Schleucher and S. Wijmenga, ‘Resonance Assignment and Structure Determination for RNA’, p. 371
R83 J. Feigon, S. E. Butcher, L. D. Finger and N. V. Hud, ‘Solution Nuclear Magnetic Resonance Probing of Cation Binding Sites on Nucleic Acids’, p. 400
R84 R. L. Gonzales Jr. and I. Tinoco Jr., ‘Identification and Characterization of Metal Ion Binding Sites in RNA’, p. 421
Vol. 339
Nuclear Magnetic Resonance of Biological Macromolecules, Part B, ed. T. L. James, V. Dotsch and U. Schmitz, Academic Press, 2001
R85 W. Kremer and H. R. Kalbitzer, ‘Physiological Conditions and Practicality for Protein Nuclear Magnetic Resonance Spectroscopy: Experimental Methodologies and Theoretical Background’, p. 3
R86 S. Bagby, K. I. Tong and M. Ikura, ‘Optimization of Protein Solubility and Stability for Protein Nuclear Magnetic Resonance’, p. 20
R87 H. N. B. Moseley, D. Monleon and G. T. Montelione, ‘Automatic Determination of Protein Backbone Resonance Assignments from Triple Resonance Nuclear Magnetic Resonance Data’, p. 91
R88 C. Fushman and D. Cowburn, ‘Nuclear Magnetic Resonance Relaxation in Determination of Residue-Specific 15N Chemical Shift Tensor in Proteins in Solution: Protein Dynamics, Structure, and Applications of Transverse Relaxation Optimized Spectroscopy’, p. 109
R89 L. E. Kay, ‘Nuclear Magnetic Resonance Methods for High Molecular Weight Proteins: A Study Involving a Complex of Maltose Binding Protein and β-Cyclodextrin’, p. 174
R90 A. G. Palmer III, C. D. Kroenke and J. P. Loria, ‘Nuclear Magnetic Resonance Methods for Quantifying Microsecond-to-Millisecond Motions in Biological Macromolecules’, p. 204
R91 K. J. Walters, A. E. Ferentz, B. J. Hare, P. Hidalgo, A. Jasanoff, H. Matsuo and G. Wagner, ‘Characterizing Protein-Protein Complexes and Oligomers by Nuclear Magnetic Resonance Spectroscopy’, p. 238
R92 H. J. Dyson and P. E. Wright, ‘Nuclear Magnetic Resonance Methods for Elucidation of Structure and Dynamics in Disordered States’, p. 258
R93 P. Damberg, J. Jarvet and A. Graslund, ‘Micellar Systems as Solvents in Peptide and Protein Structure Determination’, p. 271
R94 S. J. Opella, C. Ma and F. M. Marassi, ‘Nuclear Magnetic Resonance of Membrane-Associated Peptides and Proteins’, p. 285
R95 I. Bertini, C. Luchinat and M. Piccioli, ‘Paramagnetic Probes in Metalloproteins’, p. 314
R96 V. Dotsch, ‘Protein-DNA Interactions’, p. 343
R97 M. Allen, L. Varani and G. Varani, ‘Nuclear Magnetic Resonance Methods to Study Structure and Dynamics of RNA-Protein Complexes’, p. 357
R98 J. Qin, O. Vinogradova and A. M. Gronenborn, ‘Protein-Protein Interactions Probed by Nuclear Magnetic Resonance Spectroscopy’, p. 377
R99 R. Tycko, ‘Solid-State Nuclear Magnetic Resonance Techniques for Structural Studies of Amyloid Fibrils’, p. 390 Vol. 340,
Drug-Nucleic Acid Interaction, ed. J. B. Claires and M. J. Waring, Academic Press, 2001
R100 A. N. Lane, ‘Nuclear Magnetic Resonance Studies of Drug-DNA Complexes in Solution’, p. 252
Vol. 343
G Protein Pathways, Part A, ed. R. Iyengar and J. D. Hildbrandt, Academic Press, 2001
R101 P. L. Yeagle and A. D. Albert, ‘Use of Nuclear Magnetic Resonance to Study the Three-Dimensional Structure of Rhodopsin’, p. 223
(Continues…)Excerpted from Nuclear Magnetic Resonance Volume 32 by G.A. Webb. Copyright © 2003 The Royal Society of Chemistry. Excerpted by permission of The Royal Society of Chemistry.
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